Mast cells (MCs) are commonly recognized for their crucial involvement in the pathogenesis of allergic diseases, but over time, it has come to light that they also play a role in the... Show moreMast cells (MCs) are commonly recognized for their crucial involvement in the pathogenesis of allergic diseases, but over time, it has come to light that they also play a role in the pathophysiology of non-allergic disorders including atherosclerosis. The involvement of MCs in the pathology of atherosclerosis is supported by their accumulation in atherosclerotic plaques upon their progression and the association of intraplaque MC numbers with acute cardiovascular events. MCs that accumulate within the atherosclerotic plaque release a cocktail of mediators through which they contribute to neovascularization, plaque progression, instability, erosion, rupture, and thrombosis. At a molecular level, MC-released proteases, especially cathepsin G, degrade low-density lipoproteins (LDL) and mediate LDL fusion and binding of LDL to proteoglycans (PGs). Through a complicated network of chemokines including CXCL1, MCs promote the recruitment of among others CXCR2+ neutrophils, therefore, aggravating the inflammation of the plaque environment. Additionally, MCs produce extracellular traps which worsen inflammation and contribute to atherothrombosis. Altogether, evidence suggests that MCs actively, via several underlying mechanisms, contribute to atherosclerotic plaque destabilization and acute cardiovascular syndromes, thus, making the study of interventions to modulate MC activation an interesting target for cardiovascular medicine. Show less
Douna, H.; Mol, J. de; Amersfoort, J.; Schaftenaar, F.H.; Kiss, M.G.; Suur, B.E.; ... ; Foks, A.C. 2022
B and T cells are interconnected in the T follicular helper-germinal center B cell (TFH-GC B cell) axis, which is hyperactive during atherosclerosis development and loss of control along this axis... Show moreB and T cells are interconnected in the T follicular helper-germinal center B cell (TFH-GC B cell) axis, which is hyperactive during atherosclerosis development and loss of control along this axis results in exacerbated atherosclerosis. Inhibition of the TFH-GC B cell axis can be achieved by providing negative co-stimulation to TFH cells through the PD-1/PD-L1 pathway. Therefore, we investigated a novel therapeutic strategy using PD-L1-expressing B cells to inhibit atherosclerosis. We found that IFNγ-stimulated B cells significantly enhanced PD-L1 expression and limited TFH cell development. To determine whether IFNγ-B cells can reduce collar-induced atherosclerosis, apoE -/- mice fed a Western-type diet were treated with PBS, B cells or IFNγ-B cells for a total of 5 weeks following collar placement. IFNγ-B cells significantly increased PD-L1hi GC B cells and reduced plasmablasts. Interestingly, IFNγ-B cells-treated mice show increased atheroprotective Tregs and T cell-derived IL-10. In line with these findings, we observed a significant reduction in total lesion volume in carotid arteries of IFNγ-B cells-treated mice compared to PBS-treated mice and a similar trend was observed compared to B cell-treated mice. In conclusion, our data show that IFNγ-stimulated B cells strongly upregulate PD-L1, inhibit TFH cell responses and protect against atherosclerosis. Show less
Velden, J. van der; Asselbergs, F.W.; Bakkers, J.; Batkai, S.; Bertrand, L.; Bezzina, C.R.; ... ; Thum, T. 2022
Cardiovascular diseases represent a major cause of morbidity and mortality, necessitating research to improve diagnostics, and to discover and test novel preventive and curative therapies. All of... Show moreCardiovascular diseases represent a major cause of morbidity and mortality, necessitating research to improve diagnostics, and to discover and test novel preventive and curative therapies. All of which warrant experimental models that recapitulate human disease. The translation of basic science results to clinical practice is a challenging task. In particular for complex conditions such as cardiovascular diseases, which often result from multiple risk factors and co-morbidities. This difficulty might lead some individuals to question the value of animal research, citing the translational 'valley of death', which largely reflects the fact that studies in rodents are difficult to translate to humans. This is also influenced by the fact that new, human-derived in vitro models can recapitulate aspects of disease processes. However, it would be a mistake to think that animal models cannot provide a vital step in the translational pathway as they do provide important pathophysiological insights into disease mechanisms particularly on a organ and systemic level. While stem cell-derived human models have the potential to become key in testing toxicity and effectiveness of new drugs, we need to be realistic, and carefully validate all new human-like disease models. In this position paper, we highlight recent advances in trying to reduce the number of animals for cardiovascular research ranging from stem cell-derived models to in situ modelling of heart properties, bioinformatic models based on large datasets, and improved current animal models, which show clinically relevant characteristics observed in patients with a cardiovascular disease. We aim to provide a guide to help researchers in their experimental design to translate bench findings to clinical routine taking the replacement, reduction and refinement (3R) as a guiding concept. Show less
Slenders, L.; Landsmeer, L.P.L.; Cui, K.; Depuydt, M.A.C.; Verwer, M.; Mekke, J.; ... ; Laan, S.W. van den, Mokry, M. 2021
Genome-wide association studies (GWASs) have discovered hundreds of common genetic variants for atherosclerotic disease and cardiovascular risk factors. The translation of susceptibility loci into... Show moreGenome-wide association studies (GWASs) have discovered hundreds of common genetic variants for atherosclerotic disease and cardiovascular risk factors. The translation of susceptibility loci into biological mechanisms and targets for drug discovery remains challenging. Intersecting genetic and gene expression data has led to the identification of candidate genes. However, previously studied tissues are often non-diseased and heterogeneous in cell composition, hindering accurate candidate prioritization. Therefore, we analysed single-cell transcriptomics from atherosclerotic plaques for cell-type-specific expression to identify atherosclerosis-associated candidate gene-cell pairs.\nWe applied gene-based analyses using GWAS summary statistics from 46 atherosclerotic and cardiovascular disease, risk factors, and other traits. We then intersected these candidates with single-cell RNA sequencing (scRNA-seq) data to identify genes specific for individual cell (sub)populations in atherosclerotic plaques. The coronary artery disease (CAD) loci demonstrated a prominent signal in plaque smooth muscle cells (SMCs) (SKI, KANK2, and SORT1) P-adj. = 0.0012, and endothelial cells (ECs) (SLC44A1, ATP2B1) P-adj. = 0.0011. Finally, we used liver-derived scRNA-seq data and showed hepatocyte-specific enrichment of genes involved in serum lipid levels.\nWe discovered novel and known gene-cell pairs pointing to new biological mechanisms of atherosclerotic disease. We highlight that loci associated with CAD reveal prominent association levels in mainly plaque SMC and EC populations. We present an intuitive single-cell transcriptomics-driven workflow rooted in human large-scale genetic studies to identify putative candidate genes and affected cells associated with cardiovascular traits. Collectively, our workflow allows for the identification of cell-specific targets relevant for atherosclerosis and can be universally applied to other complex genetic diseases and traits. Show less
Grievink, H.W.; Gal, P.; Ozsvar Kozma, M.; Klaassen, E.S.; Kuiper, J.; Burggraaf, J.; ... ; Moerland, M. 2020
using the Prevenar-13 vaccine. Twenty-four healthy male volunteers were vaccinated with Prevenar-13, either three times, twice or once in a double-blind, placebo-controlled, randomized single... Show moreusing the Prevenar-13 vaccine. Twenty-four healthy male volunteers were vaccinated with Prevenar-13, either three times, twice or once in a double-blind, placebo-controlled, randomized single center clinical study. Anti-pneumococcal wall, oxLDL and phosphorycholine antibody levels were measured at a fixed serum dilution, as well as circulating lipid levels over the course of 68 weeks. A significant increase in anti-oxLDL IgG and IgM was seen in the group receiving two doses six months apart compared to the placebo. However, these differences were not observed in the groups receiving a single dose, two doses one month apart, or three doses. This study shows that vaccination with Prevenar-13 does not result in robust anti-oxLDL IgM levels in humans. Further research would be required to test alternative pneumococcal-based vaccines, vaccination regimens or study populations, such as cardiovascular disease patients. Show less
Adrenal-derived glucocorticoids mediate the physiological response to stress. Chronic disturbances in glucocorticoid homeostasis, i.e. in Addison's and Cushing's disease patients, predispose to the... Show moreAdrenal-derived glucocorticoids mediate the physiological response to stress. Chronic disturbances in glucocorticoid homeostasis, i.e. in Addison's and Cushing's disease patients, predispose to the development of atherosclerotic cardiovascular disease. Here we review preclinical and clinical findings regarding the relation between changes in plasma glucocorticoid levels and the atherosclerosis extent. It appears that, although the altered glucocorticoid function can in most cases be restored in the different patient groups, current therapies do not necessarily reverse the associated risk for atherosclerotic cardiovascular disease. In our opinion much attention should therefore be given to the development of a Cushing's disease mouse model that can (1) effectively replicate the effect of hypercortisolemia on atherosclerosis outcome observed in humans and (2) be used to investigate, in a preclinical setting, the relative impact on atherosclerosis susceptibility of already available (e.g. metyrapone) and potentially novel (i.e. SR-BI activity modulators) therapeutic agents that target the adrenal glucocorticoid output. Show less
Atherosclerosis is the main underlying pathology of cardiovascular disease. Atherosclerosis is caused by an immune response which is directed against (modified) lipoproteins which accumulate in the... Show moreAtherosclerosis is the main underlying pathology of cardiovascular disease. Atherosclerosis is caused by an immune response which is directed against (modified) lipoproteins which accumulate in the vessel wall. Over time, this accumulation of lipids and immune cells induce morphological abnormalities in the vessel wall which cause the vessel lumen to narrow. This narrowing of the lumen (stenosis) causes ischemia in the downstream tissue. Prolonged ischemia causes myocardial ischemia and/or stroke. The research described in my thesis examines a well-recognized risk factor of atherosclerosis, being dyslipidemia, from an entirely new perspective. More specifically, it describes how dyslipidemia affects intrinsic metabolic processes in T cells, the conductors of the immune response characterizing atherosclerosis, and how this affects their function. My research has contributed to knowledge on the pathophysiology of atherosclerosis and might one day pave the way for the development of novel therapeutic approaches to treat cardiovascular disease. Show less
Meeuwsen, J.A.L.; Vries, J.J. de; Duijvenvoorde, A. van; Velden, S. van der; Laan, S.W. van der; Koeverden, I.D. van; ... ; Jager, S.C.A. de 2019
future AbstractMouse studies have established distinct monocyte subtypes that participate in the process of atherosclerotic lesion formation. The pro-inflammatory Ly6Chigh monocyte subtype actively... Show morefuture AbstractMouse studies have established distinct monocyte subtypes that participate in the process of atherosclerotic lesion formation. The pro-inflammatory Ly6Chigh monocyte subtype actively contributes to murineplaque progression and destabilization. Also in humans, different peripheral monocyte subtypes have been identified, of which the CD14+CD16− classical monocyte is suggested to display similar pro-atherosclerotic properties as the murine Ly6Chigh subtype. We aimed to investigate if circulating CD14+CD16− classical monocytes associate with characteristics of a vulnerable carotid atherosclerotic plaque and if they associate with the risk of secondary adverse manifestations of atherosclerotic disease.We enrolled 175 carotid endarterectomy patients of the Athero-Express biobank in our study. Just prior to surgical procedure, blood was collected and peripheral blood mononuclear cells were isolated. Characterization of monocyte subsets was performed by flow cytometry. Plaque characteristics were semi-quantitatively scored for the presence of fat, collagen, intraplaque hemorrhage and calcification. Vessel density, smooth muscle cells and macrophages were assessed quantitatively on a continuous scale. All features of a vulnerable plaque phenotype, including low amounts of collagen and smooth muscle cells, and increased fat content, vessel density, intraplaque hemorrhage and plaque macrophages were not significantly associated with differential levels of peripheral classical CD14+CD16− monocytes or other monocyte subsets. Using Cox regression models to evaluate the prognostic value of circulating monocyte subtypes, we found that total counts of peripheral monocytes, as well as CD14+CD16− classical and other monocyte subtypes were not associated with the risk of secondary cardiovascular events during 3 years follow-up.Circulating classical CD14+CD16− monocytes do not associate with specific vulnerable plaque characteristics. In addition, they do not predict secondary adverse manifestations. This suggests that in patients with established carotid artery disease, the circulating monocytes do not reflect plaque characteristics and have no value in identifying patients at risk for future cardiovascular events. Show less
Limiting the pro-inflammatory immune response is critical for the treatment of atherosclerosis. Regulatory B cells (Bregs) can modulate the immune response through interleukin-10 (IL-10). Current... Show moreLimiting the pro-inflammatory immune response is critical for the treatment of atherosclerosis. Regulatory B cells (Bregs) can modulate the immune response through interleukin-10 (IL-10). Current data regarding Bregs and atherosclerosis is scarce and conflicting.\n B cells on atherosclerosis.\n B cells on atherosclerosis.\n B cells in atherosclerosis. Show less
Cardiovascular syndromes are the major cause of death in Western societies. The main underlying pathology is atherosclerosis, a chronic disease affecting the arteries. During atherosclerosis... Show moreCardiovascular syndromes are the major cause of death in Western societies. The main underlying pathology is atherosclerosis, a chronic disease affecting the arteries. During atherosclerosis progression, LDL, or “bad” cholesterol, accumulates in the arterial wall, resulting in the formation of a lipid-rich atherosclerotic plaque. This event activates the immune system, which increases plaque inflammation. Mast cells are components of the immune system known for their role in allergy. However, it has been established that mast cells are also important in atherosclerosis. In this PhD dissertation, we explored the interaction of mast cells with other immune cells. We examined the interrelation between mast cells and T-lymphocytes and discovered that mast cells can function as antigen presenting cells in atherosclerosis and, enhance the development of an atherosclerotic plaque via a direct interaction. Nonetheless, mast cells can also act on the Natural Killer T-cells, resulting in a protective function against atherosclerosis. Importantly, we used a relatively novel technical approach to explore the characteristics of mast cells inside human atherosclerotic plaques. We found that mast cells are highly activated and thus possibly promote disease progression. In conclusion, mast cells possess both protective and harmful effects, acting as regulators of the immune response in atherosclerosis. Show less
Mast cells are potent actors involved in inflammatory reactions in various tissues, including both in the intimal and the adventitial layers of atherosclerotic arteries. In the arterial intima, the... Show moreMast cells are potent actors involved in inflammatory reactions in various tissues, including both in the intimal and the adventitial layers of atherosclerotic arteries. In the arterial intima, the site of atherogenesis, mast cells are activated to degranulate, and thereby triggered to release an abundance of preformed inflammatory mediators, notably histamine, heparin, neutral proteases and cytokines stored in their cytoplasmic secretory granules. Depending on the stimulus, mast cell activation may also launch prolonged synthesis and secretion of single bioactive molecules, such as cytokines and derivatives of arachidonic acid. The mast cell-derived mediators may impede the functions of different types of cells present in atherosclerotic lesions, and also compromise the structural and functional integrity of the intimal extracellular matrix. In the adventitial layer of atherosclerotic coronary arteries, mast cells locate next to peptidergic sensory nerve fibers, which, by releasing neuropeptides may activate mast cells to release vasoactive compounds capable of triggering local vasoconstriction. The concerted actions of arterial mast cells have the potential to contribute to the initiation and progression of atherosclerosis, and ultimately to destabilization and rupture of an advanced atherosclerotic plaque with ensuing atherothrombotic complications Show less
During this research project we studied circulating cells in the blood of people with cardiovascular disease, we investigated if these cells could be used as biomarkers for future cardiovascular... Show moreDuring this research project we studied circulating cells in the blood of people with cardiovascular disease, we investigated if these cells could be used as biomarkers for future cardiovascular incidents. We specifically looked at circulating immune cells such as monocytes, T cells and neutrophils. It was shown that both specific subsets of monocytes as well as neutrophils could be used to predict cardiovascular events in patients with cardiovascular disease. Surprisingly it was shown that different cell subsets were predictive for cardiovascular events in men and women. Investigating the difference between men and women further we show that the acute immune response in during cardiovascular disease is different between men and women. While the response in males was skewed towards a monocyte response, in women the acute response was skewed towards a T cell response. The research presented in this thesis shows that our knowledge of the gender specific immune response in cardiovascular disease is limited and further research is necessary. Show less
Atherosclerosis is a chronic inflammatory disease in which lipids and cells of the immune system accumulate in the vessel wall. Clinical complications, such as a myocardial infarction or stroke may... Show moreAtherosclerosis is a chronic inflammatory disease in which lipids and cells of the immune system accumulate in the vessel wall. Clinical complications, such as a myocardial infarction or stroke may occur when advanced atherosclerotic lesions become unstable and rupture. In this thesis, the influence of the psychological stress response and stress-related neuropeptides on vascular inflammation and atherosclerotic lesion development has been investigated. We demonstrated that acute stress results in activation of a potent type of immune cell in the vessel wall, the mast cell, leading to increased inflammation and atherosclerotic plaque destabilization. Furthermore, we have shown that (peri)vascular mast cell activation leads to neutrophil recruitment, thus aggravating the local inflammatory response. In addition, we demonstrated increased expression of neuropeptide Y in advanced atherosclerotic lesions and that overexpression of this peptide results in increased lesion development. These insights emphasize a contributing role for psychological stress to atherosclerotic lesion development and as a risk factor for acute cardiovascular syndromes and opens up new avenues for possible future anti-inflammatory therapies to reduce the risk of cardiovascular disease. Show less
Atherosclerosis is the main underlying pathology of cardiovascular disease, the largest single cause of death in industrialized countries, and current treatment is still largely insufficient. In... Show moreAtherosclerosis is the main underlying pathology of cardiovascular disease, the largest single cause of death in industrialized countries, and current treatment is still largely insufficient. In recent years it has become evident that immune responses contribute to atherosclerosis. Therefore, during my PhD studies I focused on developing a therapy to induce and expand anti-inflammatory immune cells to reduce ongoing immune responses and atherosclerosis. I used the approach of cellular therapy and examined the effect of several different anti-inflammatory immune cells. For example, I made use of mesenchymal stem cells, which have previously been used to improve cardiac repair after myocardial infarction and were found to have anti-inflammatory properties. Additionally, I used drugs, e.g. inhibitors of protein degradation, and biologics, e.g. components of heat-killed bacteria, to directly increase the amount of anti-inflammatory immune cells. An interesting side-effect of some treatments was that they additionally reduced cholesterol levels. In summary, I have shown in pre-clinical models that immune cell-based therapies are promising for the treatment of atherosclerosis. As atherosclerosis is determined by both high cholesterol levels and inflammation reducing immune responses will greatly contribute to a better treatment of cardiovascular patients in the (near) future. Show less
Atherosclerosis is a chronic inflammatory disease, consisting of the buildup of lipids in the vessel wall. Advanced lesions may become unstable and rupture, leading to major cardiovascular... Show moreAtherosclerosis is a chronic inflammatory disease, consisting of the buildup of lipids in the vessel wall. Advanced lesions may become unstable and rupture, leading to major cardiovascular complications such as myocardial infarction or stroke. In this thesis, the role of the innate immune system in atherosclerosis has been investigated. We have shown that inhibition of complement component C5a results in reduced atherosclerotic lesion formation as well as reduced lesion destabilization. Also, we have provided evidence that activation of mast cells surrounding the atherosclerotic lesion results in increased accumulation of the neutrophil, thus aggravating the local inflammatory response. Moreover, we have investigated the effect of microRNA inhibition of atherosclerosis. MicroRNAs are short non-coding RNA strands with the ability to modulate the expression of multiple genes. With a unique Reversed Target Prediction we have identified microRNAs that are predicted to affect multiple atherosclerosis-related genes. We inhibited one of these predicted microRNAs: microRNA-494, and investigated its role in vivo. Interestingly, we observed a striking reduction in atherosclerotic lesion formation, as well as an increase in lesion stability. Show less
With the use of combinatorial phage display, solid phase peptide synthesis and a multidiscipline of molecular and cellular assays in vascular biology, the research described in this thesis has... Show moreWith the use of combinatorial phage display, solid phase peptide synthesis and a multidiscipline of molecular and cellular assays in vascular biology, the research described in this thesis has resulted in the identification of two novel peptides targeting to SR-AI and CD40 respectively which hold promise as targeted contrast agents for the diagnosis of atherosclerosis symptom. In addition, a peptide named VIVIT and its derivatives had been discovered and synthesized which constitute a more selective and less toxic drug candidate than currently used immunosuppressant cyclosporine A or FK506, leading to new generation immunosuppressants and therapeutics for autoimmune diseases such as rheumatoid arthritis or allograft transplantation and cardiovascular disorders including atherosclerosis, restenosis and cardiac hypertrophy. Show less